Conveyer equipment  for handling



J. W. COX

Aug. 7, 1951 CONVEYER EQUIPMENT FOR HANDLING AND PACKAGING EGGS Filed April 5, 1946 7 Sheets-Sheet 1 INVEN'TOR. 60x

Aug. 7, J. W. COX CONVEYER EQUIPMENT FOR HANDLING AND PACKAGING EGGS Filed April 5, 1946 7 Sheets-Sheet 2 W r/afiz; 7a CIIONZNTOR.

Qwwzgufl W 4 g- 1951 J. w. cox 2,563,583

CONVEYER EQUIPMENT FOR HANDLING AND PACKAGING EGGS Filed April 5, 1946 7 Sheets-Sheet 5 Aug. 7, 1951 J. w. cox 2,563,583

CONVEYER EQUIPMENT FOR HANDLING AND PACKAGING EGGS Filed April 5, 1946 7 Sheets-Sheet 4 mm m T J- W. CONVEYER EQUIPMENT FOR HANDLING AND PACKAGING EGGS Aug. 7, 1951 7 Sheets-Sheet 5 Filed April 5, 1946 QQQQQQ O Q35 m g 9 5 8 $9 0 00 @6 9 m E ww o w I INVENTOR. (7022 %[&X BY

J. w. cox 2,563,583

CONVEYER EQUIPMENT FOR HANDLING AND PACKAGING EGGS Aug. 7, 195] 7 Sheets-Sheet 6 Filed April 5, 1946 INVENTOR. r/ofizz 7d 50x BY v J. W. COX

Aug. 7; 1951 CONVEYER EQUIPMENT FOR HANDLING AND PACKAGING EGGS Filed April 5, 1946 7 Sheets-Sheet 7 INVENTOR.

r. .rim NQ MN Patented Aug. 7, 1951 C(JNVEYER EQUIPMENT FOR HANDLING AND PACKAGING EGG John, Cox, Chicago, Ill., as sign01 to, S'hellmar Products Corporation, Mount Vernon, hio, a

corporation of Delaware pnlica ionieprilfil 6;, S a m 660,003:

14 Claims. I.

This, invention relates. to. methods and mechai for hand n pac in e gs...

A general object ofthe present invention is the provision of, an improved mechanized egg, room and system; of operation by whicheggs, are auto matically delivered from a central loading station to the operator in, predetermined positions as, required, and weighed.

Another object is the. provision, of; a circular egg roomsystem having, peripheral candling sta tions, automatically controlled radial egg; delivery devices supplying these. stations from, a central loading-station, and acontinuous rigid, circular, rotating conveyor for carrying, graded. and can; dled eggs from th candling stations; to. a packing station,

More particularly, it is anobject to provide app tu r equi ment for h h dl n and packaging ofeggs which is. characterized by a continuously traveling, endless conveyor having a plurality of work stations, arranged, along the length thereof and on one side thereof atwhich operators are supplied with eggs to be candled, the stations being located immediately adjacent the conveyor for convenient access in placing cartons of candled eggs, thereon after Packaging, together with improved devices for supplying eggs to be candled to the stations in an automatic fashion, controlled by the presence or absence of eggs on the respective devices.

Yet another specific object is to provide apparatus of the type described including a continuously acting endless conveyor having workstations arranged longitudinally therealong, preferably in immediate, side-by-side adjacency, and supply devices acting, transversely across the conveyor to supply worl; stations on the opposite side thereof, these devices including automatically controlled egg supply units, preferably on for eachstationwhich are controlled intheir operation by th presence or absence of eggs to be supplied thereby, and material supply units of a gravitational type in which supplies of packaging materials are placed byoperators opposed to the candling stations, thearrangement being such that a single operator may take care of both the supply of eggs and packaging materials therefor.

How the foregoin objects are achieved and other advantages and capabilities of the invention are set forth in the detailed description which follows and shown in thedrawings, in which:

Fig. 1 is a generally diagrammatic plan view illustrating the apparatus of the invention and showing the annular conveyor and radial candling, stations. characterizing:the same;

Fig. 2 is, a fragmentary perspective view schematically illustrating certain of the conveyors included in the apparatus. of Fig. 1;

3 is a. fragmentary detail view. in, vertical cross section through one of the conveyors of Fig- 2, showing details of a c stopping mecha nism. for one of the conveyorsforming part of the apparatusshown in Figs. 1 and 2,;

Fig. 4 is a diagrammatic detail showing of the mechanism for imparting movement, to, the. an.- nular conveyors;

Fig, 5 is an enlarged fragmentary plan view. of a, portion, of the apparatus of Fig. 1, showing a typical, egg grading. booth or station, wherein a candler works, a plurality. of such stations. being disposed around. the periphery of. the conveyor mechanism;

Fig. 6, is a; cross-sectional view. takensubstfllltially, along theline iii-.6, of. Fig. 5,;

Fig. '7 is a plan view more clearly illustrating the automatically controlled, loose egg. conveyor whichis a component of the structure shown. in Figs. 5 and.6-;

Fig 8 is. a side elevation of; the, looseegg con: veyor;

Fig. 9 is. an, end elevation ofthe loose egg cone. veyor, viewed from. its discharge or unloading end;

Fig; 10 is, a fragmentary perspective view, partially broken away, showing one endof, the; loose egg. conveyor, particularly the scale. mechanism, the conveyor advance mechanism. and associated parts-of the conveyor;

Fig. 11 is. an, enlarged fragmentary side-elevation of one end of. the loose, egg conveyor, certainparts being broken away to better show theopen ating mechanism;

Fig 12-15 a fragmentary detail view, in section on,line |2|2 of Fig, 11, illustrating theoperating, arms of typical light controllingmicroswitches and control elements for the-same; and

Fig. 13 is. a wiring diagramillustrating certain of: the, electric circuits operative in. the function: ingi of the above mechanism,

The structure generally comprises a pair of rotating, circular, horizontal conveyors 2 4.and25, about; which are arranged the peripheral egg candling; stations E, the latter being served with eggs. tobegraded andcandled by radial conveyors, 20, which automatically advance a row of eggst-o, the candler'in the station and; automatically and simultaneously weigh each egg. of the, foremost row. of; eggsso advanced. (Dperators in the center of the device supply the radial conveyors with three. dozen. eggsat, a time from a longitudinally 3 extending conveyor .2, while eggs candled and cartoned in the stations E are carried away from the stations by the circular conveyors in cartons and flats and fillers for repacking in cases. Various other operations attending these are involved in the use of the apparatus, as will appear.

Referring nowto Fig. 1, the reference numeral I indicates generally the annular egg handling apparatus which is preferably positioned adjacent a cold egg storage room A. Conveyor 2, which is of the roller type, extends outwardly from room A, and passes radially beneath structure I. It is divided into three portions by case-stopping devices 6, including a portion 3 which transports filled egg cases to a central distributin station B, a portion 4 which transports emptied cases from station B to a case refillin station C, and a portion 5 extending beyond case refilling station 0.

As shown in Fig. 3, the case stopping devices 6 are mounted on conveyor frame members 1, and each includes a vertically extensible and retractable blade 9 slidabl carried by opposed side guides II]. This blade is articulated by a link II to the medial portion of a lever I2, one end of which is pivoted atv I3 to frame member I. The opposite end of lever I2 extends outwardly beyond frame member I, and has a foot pedal I l thereon. A

coil tension spring I5 connected between frame members I and lever I2 serves to keep blade 9 normally elevated above the level of the rollers 8 of conveyor 2, the blade extending between a pair of adjacent conveyor rollers 8, and being retractable to permit passage of egg cases on the conveyor upon depression of pedal I4.

machine is connected to an upwardly inclined portion I! of a carton conveyor trough I8 which intersects one side of the annular structure I, as shown, and extends radially thereof at least as far as the case emptying and supply station B, being disposed above the level of conveyor 2 and generally parallel thereto. Oneor more relatively low benches I9 are disposed at station B adjacent the conveyors 2 and I8, onto which egg cases carried by portion 3 of conveyor 2 may be placed while the sam are being emptied.

A plurality of loose-egg carrying conveyor mechanisms 20 traverse the annular structure I at radially spaced positions, and the reference characters D denote loose egg loading stations adjacent station B at which such conveyor mechanisms are loaded with eggs. The reference characters E denote generally the partition separated stations disposed around the periphery of the structure I, at which the loose eggs are discharged or removed from conveyor mechanism 20 for candling.

As shown in Figs.'2, 5 and 6, a plurality of packaging supply chutes 2I are provided, one for each station E, comprising a plurality of parallel chutes open at each end and inclined in the direction of station E. These chutes, like conveyor mechanisms 20, over which they are positioned, intersect annular mechanism I to carry into station E requisite packaging materials such as cartons, filler and flats, as hereinafter described. In

order to simplify the drawings the packaging supply chutes have been omitted from Fig. l but are illustrated in other figures. As shown in Fig. 6, transversely xtending stops or ledges 22 at the outer ends of chutes 2|, hold packing materials from gravitating entirely through said chutes.

The annular structure I, as illustrated in Figs. 1, 5 and 6, includes a framework 23 providing a support for a pair of horizontal rotating, annular or ring conveyors. These operate in different horizontal, parallel planes, and are of different widths, the uppermost and the wider being indicated by numeral Y24, and the lowermost and narrower being indicated by numeral 25.

Ring conveyors 24 and 25 may be made up of a series of arcuate sections of plywood rigidly fastened together in end-to-end relation to form complete circles, and are supported in sections of the framework 23 along at least their inner and.

outer edges by rollers 26, as illustrated in Figs. 4 and 6. The conveyors are rotated in the same direction by appropriate drive means from an electric motor 21, as shown in Fig. 4. A drive pinion 29 on the shaft of the motor engages a pair of opposed speed reduction gears 30 and 3|. Gear 30 is fixedly attached to a stub shaft 32 carrying drive gear 33, the last mentioned gear being meshed with an annular rack or ring gear 34 which is rigidly attached to the under surface of ring conveyor 25. Gear Si is fixedly attached to a shaft 35 which carries adjacent its end a drive gear 36. Gear 36 meshes with a second annular rack or ring gear 31 rigidly attached to the under surface of ring conveyor 24. Referring particularly to Figs. 5 and 6, the operators enclosure at each egg packing station E is defined by light excluding partitions or walls, namely, the front wall 4a, a rear wall 4! and side walls 38 and 39; Doors 42 permit access to stations A radially arranged filler and flat holding shelf 43 is hinged to framework 23 in each booth or' station E adjacent the outer periphery of ring conveyor 24 and normally tilt at a downward and outward angle relative to the conveyor 24. These shelves are upwardly swingable to the level of such conveyor, and each is provided with a transversely extending end stop 44 to prevent articles from sliding therefrom. A conventional egg candling light 55 is arranged medially of each station E, spaced above the discharge end of the loose egg conveyor mechanism 23 for that station. Preferably also spaced above conveyor 25 is an egg weight indicating means comprising a light panel 45 (shown in Figs. 11 and 13), the structural details and purposes of which are more fully described hereinafter. A shelf area ll is formed integral with framework 23, prefer ably substantially in the plane of annular conveyor 25, and side shelves G8 and 439 may, if desired, be placed at a convenient level adjacent side walls 38, 39.

Referring to Figs. 8 to 12, the loose egg conveyor 26 comprises a pair of parallel frame members 59 supported by upstanding legs SI. Shafts 53, 54 are mounted in opposed parallel relation in horizontal, parallel brackets 52 at opposite ends of frame 50, these shafts having secured thereon therespective pairs of identical, spaced and aligned chain sprockets 55 (see Fig. 11)

extending through the bent lug links 58, said slats lying in close side-by-side arrangement with their upper surfaces in coplanar order along the top of conveyor mechanism 20. Each slat 59 is provided with six aligned circular openings Ell, each opening of a size to pocket and hold an individual egg. Openings 60 are equally spaced longitudinally of each slat 5 9, and each slat 59 is positioned in such relation to each other slat that the egg holding openings are also equally spaced longitudinally of the conveyor. The openings in each direction are located in positions corresponding to the positions of eggs carried in conventional flats and fillers, so that the entire complement of eggs in a flat and filler may be transferred as a unit directly to the conveyor. These openings are approximately one and threequarters inches from center to center.

As shown in Fig. 9, shaft 53 is long enough to extend outwardly of one bracket 52--and fixedly carries on its outer extension a ratchet wheel 6|. Shaft 53 serves as a pivot for one end of an arm 62 carrying a spring loaded pawl 83, and the opposite end of arm 62 is pivoted to one end of a link 64, as shown in Fig. 8. Asits other end link 94 is pivoted to an arm 65 which is pivotally mounted on frame 59. Medially of its length, arm 65 is connected by link 69 to the plunger or armature 6'! of a solenoid 59. A switch Ill is positioned forwardly of solenoid 58, its opcrating arm 69 (see Fig. 13) being engageable by solenoid plunger 61 in its most advanced posi tion for a purpose to be described hereinafter. A coil tension spring II, one end of which is connected to frame 59 and the other end to arm 65, serves to exert rectractile force on the solenoid plunger.

As particularly shown in Figs. and 11, six weighing devices I2 are positioned in horizontal alignment between the upper and lower flights of egg conveyor mechanism 20. These devices are all pivoted for individual free weighing movement on a common pivot rod '13 extending transa versely of frame 59 and having its ends mounted in side supports Id. In the embodiment shown, each scale device comprises a pivotal beam on the end of which is mounted an egg support in the form of a cup-like element 16, while three contact arms are spaced along the beam between its pivot and element 16. These contact arms are of different lengths, as shown in Fig. 13, reference numeral TI indicating the shortest, I8 the one of intermediate length, and I9 the longest.

Banks of three vertically stepped microswitches 83, 8d and 35 are positioned below each scale beam 75 so that the operating arms 89, EI and 92 thereof (see Figs. 10 and 12) are contacted serially by contact arms TI, 18 and I9, dependent on the amount of beam swing. These microswitches are mounted on a stepped bracket 99 which extends transversely of frame members 59. Extending transversely across the beams 15 of all the individual weight determining scale devices is a plate 81 which is supported at its ends by a pair of tension springs 88. Plate 87 has integral lugs 89 formed at each end by which it is guided for limited generally vertical movement in slots 90 in side plates 9|. Gnly one of the plates is shown (Fig. 11), there being an identical plate on the opposite side of frame member 59. An upwardly extending cam 92 is positioned medially on plate 91, and, in vertical alignment with this cam each slat 59 carries a cam 93 adapted to coact with cam 92. A master microswitch 95 is disposed rearwardly of cam 92 and in alignment with cams 93, the operating arm 94 of which microswitch is depressed to switch-operate ingposition by movement of cams 93 in the manner and at the intervals hereinafter described.

Asshown in Fig. 10, rearwardly of pivot rod 13 each scale beam I5 has a counterbalance arm 96 which has mounted thereon the counterbalance weight 91, the latter being slidable longitudinally of arm 96 for proper weighing adjustment of each scale device I2. Weight 91 is locked in desired position by a wing bolt 98 threaded through one side of the weight and gripping arm 99.

Below each beam is a normally openmicroswitch I96, the operating arm 99 of which is contacted by beam arm 99 when in its depressed position, thereby closing the microswitch. The six microswitches I09 are mounted on a transverse support I 0|, an extension I02 of which carries the single master microswitch 95.

As shown in Fig. 12, the lowermost step of stepped bracket 89 is provided with an opening "33 to permit passage therethrough of cams 93 mounted on transverse slats 59.

Referring now to Figs. 9 and 11, light panel 46, which serves as the visual egg weight indication means, is supported above and transversely of frame 59 by brackets I04, this panel being provided with six sets of three vertically aligned openings; The numerals I 95 indicate the topmost openings, I96 indicate the middle openings, and ID! the lowermost openings in each aligned set. Each opening is preferably covered by a light diffusing glass I98. Fastened to the rear of panel 46 is a plate I09 having apertures therein corresponding to and in register with the apertures I85, I56 and I01 to receive sockets H9 which carry lamps H2.

The egg conveyor mechanisms 29 utilize for their operations two major electric circuits, namely: (1) that having to do with the egg weight determining and indicating means; and (2) that having to do with the mechanism for advancing the slats 59 longitudinally of frame members 99. The last named circuit itself includes two subsidiary circuits which may be termed (a) the relay closing circuit, and (b) the relay opening circuit. However, all circuits are in a sense interrelated, as will be seen from the diagram, and the description which follows.

Referring to the wiring diagram of Fig. 13, one side of the power supply line is connected through microswitch 95, which is normally closed, and through parallel circuits to each microswitch 33, 84, and 85, the last mentioned three switches being open in the inoperative condition of the weighing and indicating circuit of each individual weighing device, as shown. The microswitches 83, 8d and are individually connected, respectively, to the lamps H2 at panel openings I95, I96, and I01, thence to the power line return.

Thus, when microswitch is permitted to remain in its normally closed position, closure of the circuit of any microswitch 83 will cause its corresponding lamp IIZ to light. Likewise, closure of the circuit of any microswitch 94 or 95 will cause its respective lamp to light. Since the above described circuits are in parallel, the lighting of corresponding lamps will be accomplished irrespective of the number of series into which the circuit as a whole may be multiplied, such as the series of six such interconnected circuits shown on the diagram. Also, coincident 84 will simultaneously cause two corresponding:

lamps H2 to be lighted, and coincident closure of the circuits through microswitches 83, 84 and 85 will simultaneously cause the three corresponding lamps in each circuit to be lighted. Likewise, breaking the circuit at microswitch 95 will break the circuit to any and all lamps H2, irrespective of whether the circuits through any or all microswitches 83, 84 and 85 are closed.

The circuit illustrated in Fig. 13 includes an electrical relay H3 of the so-called mechanically held type including a magnetized head or armature. The relay is employed in the control circuit of the mechanism for advancing conveyor 20 at predetermined intervals, i. e., solenoid 88 and associated parts. Such control circuit includes a relay closing circuit, a solenoid energizing circuit, and a relay opening cir-' cuit, all cooperating to govern the actuation of solenoid 88.

Still referring to Fig. 13, in the relay closing circuit the power supply line is connected to relay H3 through the plurality of series connected, normally open microswitches I80. When all of these switches are closed, a circuit is completed to one side of relay H3, more particularly, to one contact H8 of a pair of spaced contacts H1, H8 adapted to be bridged by a buss bar H9 carried on the relay plunger I28. Buss bar H9 is mounted in insulated relation to the plunger I20 by the insulating material I2I. The contact H1 is connected to a center tap III; on the relay coil H5, the end'tap H4 of this coil being brought back to the return side of the power supply line. The member H9 is normally in the position illustrated in Fig. 13, and when a'circuit is completed through the microswitches I58, coil H is energized between the taps H6 and H4, and plunger I28 is elevated, immediately breaking the circuit at contacts H1, H8.

The relay plunger immediately shifts to a position wherein a circuit is completed through the further pair of contacts I22, I23 of relay H3, these contacts being bridged by a conductor bar H4 carried in insulated relation to the plunger I28. This is the relay opening circuit through the normally open switch Ill governed by solenoid 68. It includes a lead from the power supply line through the switch I0, contact I22, conductor bar I24, contact I23, the entire length of coil H5, from an end tap I25 to end tap H4 thereof, thence to the return side of the power line.

Solenoid 88 is energized by a separate circuit simultaneously with the shifting of plunger I28 when the pair of spaced contacts I26, I21 carried by an insulating block I28 on the plunger come into engagement with the third pair of fixed contacts I3I and I32 of the relay. This completes a solenoid energizing circuit, including a lead connected to the power supply line, through contacts I21, I32, solenoid coil I38, contacts I3I, I28, and a lead to the return line of the power supply. Energization of solenoid coil I38 through the circuit just described causes shifting of solenoid plunger 87 to the right as viewed in Fig. 13, which plunger, in completing its stroke, advances conveyor 20 one step. Plunger 87 as it approaches its limit of forward movement engages the movable arm 89 of switch I0, thereby closing the relay opening circuit through contacts I22 and I23. This breaks the relay circuit at these contacts upon reverse movement of relay plunger I20.

rupts the circuit at the instant of circuit magnetization of the plunger.

The operation of the several circuits will be described in greater detail hereinafter in connection with description of the mechanism to 7 Which they particularly relate.

The operation of the apparatus is an follows:

An operator in egg storage room A dumps stacks of eggs carried in flats and fillers from a number of cases on portion 3 of inclined conveyor 2, and they are gravity conveyed until stopped by the stopping device 6 adjacent central distributing stations B. Another operator places a supply of knocked-down egg cartons in in the carton set-up machine I6, by which machine such cartons are erected. Under the force of discharge by the set-up machine, the cartons travel up inclined surface I! to conveyor I8 and along the horizontal top area of the latter to ward central distributing station B.

Operators at stations B removed egg-laden flats and fillers incoming from conveyor portion 3, placing the same on benches I9. The fillers are then removed from each layer of eggs, and the eggs are' picked up thirty-six at a time by egg lifters, for example, the type shown in U. S. Patent No. 2,092,847, issued September 14, 1937, to James A. Johnson. The eggs thus picked up are carried to loose egg loading stations D and are placed on the series of slats 59 forming the top surface Of the several loose egg conveyor mechanisms 28, each egg occupying one opening 69 in slats 59. Opened cases of eggs may be sent to the stations B on conveyor 2, but it is preferred to dump the cases beforehand and to send in stocks of flats and fillers containing eggs, as this makes their transfer to the conveyors 20 easier. Also, other methods of transfer to conveyors 28 may be used. For instance, the eggs may be transferred directly from the flats and fillers to the conveyor, or they may be forked over.

The operators also fill packaging material conveyor chute means 2| with appropriate quantities of set up egg cartons taken from conveyor I8 and a supply of fillers and flats from which eggs have been removed.

The egg packer preferably arranges one flat and filler on each of the several radially arranged hinged shelves 43, and also appropriately arranges such series of egg cartons as she may require within easy reach on shelves 41, 48 and 49.

When a supply of eggs has been placed on the upper flight of any loose egg conveyor mechanism 28 the circuits of such mechanism are closed,

thereby causing such mechanism to go into operation. As more fully explained hereinafter, the cup-like egg supports 16 are of smaller cross dimension than the openings 68 in any slat 59 and such .egg supports are extensible a distance about the level of the slats when the conveyor reach or run formed by them is at rest. When the egg supports are relieved of eggs they extend upwardly to their point of maximum extension, permitting counterbeams 96 to .depress and close microswitches I00, hence causing operation of the conveyor advance mechanism. Thus, with all the egg supports 16 of a given slat devoid .of

eggs the conveyor advances one slat, and the inseries circuit through all microswitches IUD will be closed immediately after the advance of each slat. Thus the slats will be advanced step by step until at least one egg support carries one egg. At-that time the conveyor will come to rest.

When conveyor is is ,at rest andone or more of the egg supports or cups it arein egg supporting position, it will be noted that (1) beam depressing bar 8] is out of contact with scale beams 15, being held in elevation thereabove by tension springs 88, .with cam 92 positioned within an interstice between a pair of cams 93; (2) .egg support 16 extends through openings 60; (3) at least one and possibly more contact arms (11, 18, 19) are in operative contact with one or possibly more operating levers (80, BI, 82) of micro- ,switches 83, 8,4 ,and 85, thereby closing one or more of the light .circuits shown in Fig. 13; (4) one cam -93 is in contact with but insufiici- .ently advanced to impart operative movement to operating lever 94 of microswitch 95; and (5) each .counterbeam 95 is elevated above and out of cont-act withoperating lever 99 of each microswitch Illll.

Assuming that .endmost slat :59 of conveyor mechanism is has carried six eggs forward to the .position:that all six scale beams 15 and their associated egg supporting elements 16 have gone into loaded, .egg supporting position, all six elements l6 willextendabove the level of .endmost slat 59, being downwardly depressed somewhat from their maximum point of elevation depending on the weight of the egg on each egg sup- 1 porting element 'lfi. For instance, if a light egg is on one weighing device, the scale beam 15 will be depressed :but slightly, in which case only contact arm 11 would come into contact with operating lever 80 of microswitch =83. In such case tact with operating lever 8! 0f microswitch 84,

thereby completing the electric circuitto middle lamp H2 in panel 46, there thus being two lights illuminated in the bank corresponding to that particular Weighing device. If a heavy egg is positioned on a particular egg supporting element 'TB, its corresponding scale beam 15 will be depressed sufficiently .to additionally permit contact arm "19 to engage operating lever 82 of .microswitch 85, therebyclosing the electric circuit to and lighting a third lamp I H in the bank of lights corresponding to that particular scale device.

Thus, a .glance at panel 46 tells the operator whether the egg on .eachegg supporting element is large, medium orsmall, depending upon the number of lights which are shown lighted in each bank of lights, each such bank being in alignment with its corresponding egg weighing device.

Removal of the egg-from any egg support 16 for candling at light 45 permits scale beam 15 to rise to its highest level, carrying with it integral contact arms ll, 18 and 19. At such time all said contactarms raise out of engagement with any andall switch operating levers 80, BI

and '82, and any and all lamps H2 in the bank of lights corresponding to thatscaledevice are extinguished. Also, counterbeam 9e swings into a lower position, contactin switch operating lever 99 of associated microswitch lfiil, thereby closing that portion of the relay closing circuit passing through that switch. So lon as any one of the microswitches Hie is open, the relay circuit will be broken and the mechanism cannot be advanced.

Usually the egg packer wil not remove eggs singly from egg supporting elements '55, but will pick up several at a time. The operator will then individually pass the eggs across the beam of candling light 65 to determine the internal qual ity thereof.

Assuming, for the purpose of illustration, that the clean, unchecked, edible eggs were being packed into grades of A large, A medium, A small,

'3 large, and grade C (which latter grade would contain eggs of B medium and small grades as well as eggs actually grading C), the packer would have before her on shelf fill five different types of egg cartons into which the cartonable eggs would be placed. Uncartonable eggs such as inedibles, dirties and checks would be placed in fillers and. fiats reposing on hinged shelves 43.

As stated hereinbefore, as the egg packer removes each egg of the series from the egg supporting element 16, each counter beam drops into contact with microswitch operating lever 99 of each microswitch in. When all the eggs are removed from all the said elements Hi and all counterbeams 96 have depressed, the relay closing circuit will then be closed.

Completion of the relay closing circuit shown activates and magnetizes thatportion of the coil H5 in relay I !3 which lies between connections iii! and H5, and relay plunger 12!! is thereby pulled forward so that solenoid plunger cross bar itdl is brought into electrical bridging and connecting relation across the gap betweencontacts i 22 and 123. At the same time relay plunger block Q28 is in position such that contacts I26 and i2! are brought into operative contact with contacts till and E32, there-by closing the electrical circuit to solenoid coil [3c of solenoid 6B. Closure of the last above mentioned circuit activates and magnetizes solenoid coil I30, pulling forward solenoid plunger 61.

When solenoid plunger 61 is in its iorwardmost position, it contacts and depresses the operating arm 59 of normally open microswitch 10, thereby completing the relay opening circuit. The closure of the relay opening circuit activates and magnetizes that entire portion of the relay coil i 55 between connections M and [25, and relay solenoid plunger i2!) is then withdrawnto assume the position shown inFig. 13, thereby breaking the operating circuit of solenoid "B8. The plunger of solenoid 68 then returns to its original unextended position under the pull of tension spring ll.

As will be seen in Fig. 8, forward movement of mechanism operating solenoid plunger 61 causes ,forward movement of spring loaded pawl Forward movement of the latter causes the ratchet wheel ill to be partially rotated in the direction indicated on the drawings, carrying with it in such .rotation shaft 53 and sprocket wheels 55. The latter are drivingly associated with parallelendless chains 55 affixed to slats '59, so that forward movement is thus imparted to the series of such slats as a unit.

The lengthof each step of forward travel of mechanism .20 is equal to the widthof a single slat 59. Thus theegg packer, having removed i 'microswitches 83, 84 and 85.

. removed from the egg supports 16.

all eggs from egg supports it, has brought before her another series of eggs.

The mechanism through which the solenoid advances the conveyor is geared to provide one and three-quarters inches movement during each cycle or step of operation. The slats 59 are one and three-quarters inches in width, so each activation of the solenoid. advances the conveyor just the right amount to present a new row of eggs in predetermined position before the candler 1 and in register with the weighing devices 16.

Referring now to Fig. 10, during the forward movement of the slats 59, one of the cams 93 is brought into edge-to-edge contact with cam 92 on depressing bar 8], thereby depressing the same. Bar 8?! is thus brought into contact with 1 all beams 75 of all weighing devices '52, depressing the same to such'an extent that all egg supports 16 are withdrawn out of openings 62 and sufficiently below slats 59 to be entirely out of the path of travel of slats 59 as they are advanced.

It will be noted that during the time scale beams 75 are depressed by bar 8?, all the contact arms 11, i8 and '19 are in engagement, respectively, with operating arms 86, 8E and 82 of Under these circumstances all the light circuits shown in Fig. 13 will be closed, and normally all lamps I Hi would be lighted. To overcome this possible objection, in the advancing movement of slats 59, one of the earns 93, other than the cam which caused depression of transverse bar 87, contacts arm 86 of microswitch 95, thereby opening this normally closed switch. As shown in Fig. 13, switch 95 is in a controlling position with respect to all the i light circuits shown, hence, the above described conveyor mechanism has completed one step of advance, the transversely extending beam depressing bar 8'! is returned to normal elevated position by tension springs 88, cam 92 on said bar assuming a position in the spaces between v a pair of cams 93. Coincidentally, all scale beams 15 elevate counterclockwise under gravity to permit egg supports 76 to extend through openings 68 and go into egg supporting relationship to the eggs newly brought forward therein. When egg supports 16 are in egg supporting relation, the entire loose egg conveyor mechanism is at rest and will not again advance until all the eggs are When this is accomplished an automatic repetition of its advancing operation occurs. The weight of-any egg will continue to be shown on panel 46 until the egg is removed from egg support 16, at which time a further supply is advanced before the operator in the manner hereinbefore indicated.

The egg packer at station E continues to remove eggs from egg supports 16, determines their internal quality under the beam of candling light 45, and places the eggs either in fillers and flats (inedibles, dirties and checks) or in appropriate egg cartons in accordance with their weight and internal quality as hereinbefore indicated.

When a filler and flat assembly positioned on hinged shelf 43 has been completely filled with eggs, the operator tips the shelf upwardly to the level of annular conveyor 26 and shoves the fiat and filler assembly thereon. When any e g carton is filled, the operator shoves it onto rotating annular conveyor 25, the top of thecarton being unclosed and extending upwardly, and the longitudinal dimension of the carton extending in the direction of rotation of said conveyor 25.

As will be seen in Fig. 1, a carton closing machine l35 of the type shown in Patent No.

2,242,304 to Johnson is interposed in the path to diverting device I36 extends angularly outward and above the surface level of conveyor 25, and shunts the closed egg cartons onto the top surface of a packing table I31. A bar or fence I38 extends transversely of and above the surface level of annular conveyor 24 to prevent passage there- M beyond of fillers and flats containing eggsI In those instances where empty egg cases are originally placed on conveyor 2 at .A, after service persons working in station B have removed the eggs, fillers and flats in which such eggs were originally packed from the egg cases may then be manually placed on portion 4 of conveyor 2 and transported around the oblique angular bend shown therein to a second case stopping device 6, such as shown in Figs. 2 and 3, to a position adjacent'station C. At station 0 the then empty egg cases are removed from conveyor 2 and placed on low benches I39, such as shown in Fig. 1.

a The majority of the cases are then filled with eggs in cartons shunted ofi annular conveyor 25 by carton diverting device I36. The case packer may also reach across annular conveyor 25 and bar I38 and remove from annular conveyor 24 the filler and flat assemblies arriving adjacent station C, packing such assemblies in cases,

When egg cases are filled with eggs, either in cartons or fillers and flats, they may then be manually placed on portion 5 of conveyor 2, by which they may be conveyed to any appropriate spot for disposal.

I claim:

1. Egg handling apparatus, comprising conveyor means for transporting egg packing materials, means providing a central distribution station serviced by said transporting means, a plurality of individual conveyors extending outwardly from said central distribution station, a rotatable annular conveyor the path of travel of which is crossed by said individual conveyors, said annular conveyor having a plurality of egg packing stations arranged in a'generally circumferential series externally thereof, each serviced by one of said individual conveyors, the individual conveysaid central distribution station, a pair of concentric, rotatable annular conveyors,the path of travel of at least one of which is crossed by said individual conveyors, said annular conveyors hav ing a plurality of egg packing stations arranged in a generally circumferential series externally thereof, each serviced by one of said individual conveyors, the individual conveyors discharging into and the annular conveyor being accessible from within said packing stations, and means arranged substantially in the plane of oneof said annular conveyors and in receiving relation thereto to divert packaged eg s from said last named annular conveyor.

3. Egg room apparatus comprising an endless horizontal conveyor, means providing a plurality of Work stations spaced along said conveyor on one side thereof, including shelfmeans disposed adjacent said conveyor, said conveyor and shelf means each being located at a height enabling convenient manual access thereto by operators seated at said respective Work stations, a plurality of egg supply devices spaced along said conveyor and acting transversely thereof, said devices being positioned to deliver eggs beneath said conveyor to said Work stations, and each having an egg delivery end adjacent the shelf means of said respective work stations and .an egg receiving end on the side of said conveyor opposite said work stations, and a plurality of carton supply devices acting transversely of said conveyorto deliver cartons at said Work stations, each of saidlast named devices having carton receiving and carton delivery ends disposed-on opposite sidesor said conveyor.

l. Egg room apparatus comprising an endless horizontal conveyor, means providing a plurality of work stations spaced along :said conveyor on one side thereof, including shelf means disposed adjacent said conveyor, said conveyor-and shelf means each being located at -a height enabling convenient manual access thereto by Operators seated at said respective work stations, a plurality of eggsupply devices spaced'along said conveyor and acting-transversely thereof, said devices being positioned to deliver eggs beneath said conveyor to said work stations, and each having an e g delivery end adjacent the shelf means ofsaid respective workstations and an'egg receiving end on the side of said conveyor-opposite said Work stations, a plura'lity -ofcarton supply devicesacting transversely-of said conveyor to deliver cartons at said work stations, each of said last named devices having carton receiving :and car ton delivery ends disposed on opposite sides of said conveyor, and 'a further endless horizontal conveyor generally paralleling said first named conveyor at a differentelevation.

5. Egg room apparatus comprising a continuously traveling conveyor traversing an endless, horizontal, orbital path, means providing a plurality of work stations adjacent and spaced along one side of said conveyor, a plurality of intermittently operable egg supply devices spaced along the opposite side of said conveyor 'and acting transversely of the same to deliver eggs at said stations at a level beneath said conveyor, and a plurality of carton supply devices spaced along said conveyor in transverse, intersecting relation to the same and delivering egg cartons at said stations, said respective egg and carton supply devices being disposed in sets in substantial vertical alignment with one another, there being one set for each of said stations.

6. Apparatus of the type described, comprising a continuously operating, horizontally traveling 14 conveyor member, a plurality of work stations spaced along and adjacent a side of said conveyor member, and a plurality of intermittently operable article supply devices spaced along said conveyor member and operating transversely thereof to deliver articles to said stations for convenient accessof operators therein, said last named devices including means automatically controlling the intermittent operation thereof, which means is in turn controlled in its operation by the Weight of'articles supplied to said stations by said last named devices.

convenient access of operators therein, said last named devices passing beneath said conveyor member and including means automatically controlling the intermittent operation thereof, which means is in turn controlled in its operation by the weightof articles s-upplied'tosaid stations by said lastnamed devices.

-8. Apparatus of the type 1 described, comprising :a continuously operating, horizontally traveling conveyor member, a plurality of work stations spaced along and adjacent a side of said conveyor member, a plurality of material supply devices spaced along said conveyor member in :position and acting transversely thereof to deliver :material to said stations, and aplurality of intermittently operable article supply devices spaced along said conveyor member and operatingtransversely thereof'to deliver .articles'to saidstations for convenient access of operators therein, said last named devices including means automatically controlling :the

intermittent operation thereof, which means is in turn controlled in its operation .by the Weight of articles supplied to said stations by-said last named devices.

.9. Egg room apparatus of the type described, comprising a continuously operating, horizontally traveling conveyor member, -a :pluralityof work stations spaced alongsaid .conveyor member and each provided with a forward work shelf adjacent said "conveyor member, a plurality of material supplydevices spaced along said conveyor member, saiddevices acting-transversely .of said member to deliver cartoning material to said stations in close adjacency to the respective shelves thereoL-ahd a pluralityof intermittently operable egg supply'dev-ices along said conveyor member and operating transversely thereof to deliver articles to said stations adjacent said respective shelves for convenient access of operators in the stations, said last named devices including means automatically controlling the intermittent operation thereof, which means is in turn controlled in its operation by the Weight of eggs supplied to said stations by said last named devices.

10. Egg room apparatus of the type described, comprising a continuously operating, horizontally traveling conveyor member, a plurality of work stations spaced along said conveyor member and each provided with a forward Work shelf adjacent said conveyor member, a plurality of material supply devices spaced along and above said conveyor member, said devices acting transversely of said member to deliver cartoning material downwardly to said stations in close adjacency to the respective shelves thereof from a higher elevation, and a plurality of intermittently operable egg supply devices along said conveyor member and operating transversely thereof to deliver articles to said stations adjacent said respective shelves for convenient access of operators in the stations, said last named devices including means automatically controlling the intermittent operation thereof, which means is in turn controlled in its operation by the weight of eggs supplied to said stations by said last named devices.

11. Egg room apparatus of the type described,

comprising a continuously operating, horizontally traveling conveyor member, a plurality of work stations spaced along said conveyor member and 1 each including a forward work shelf adjacent said conveyor member, a plurality of material supply devices spaced along said conveyor mem ber and acting transversely thereof to deliver cartoning material to said stations, a plurality of intermittently operable egg supply devices along said conveyor member and operating transversely thereof to deliver articles to said stations adjacent said respective shelves for convenient access of operators in the stations, said last named devices being disposed at a level beneath said conveyor member and including means automatically controlling the intermittent operation thereof, which means is in turn controlled in its operation by the weight of eggs supplied to said stations by said last named devices, and a further continuously traveling conveyor member adjacent said stations in general parallelism with said first named member and in vertically spaced relation thereto, said further conveyor member serving to transport materials away from said stations.

12. Egg room apparatus of the type described, comprising a continuously operating, horizontally traveling conveyor member, a plurality of work stations spaced along said conveyor member and each including a forward work shelf adjacent said conveyor member, a plurality of material supply devices spaced along and above said conveyor member and acting transversely thereof to deliver cartoning material downwardly to said stations from a higher elevation, a plurality of intermittently operable egg supply devices along said conveyor member and operating transversely thereof to deliver articles to said stations adjacent said respective shelves for convenient access of operators in the stations, said last named devices being disposed at a level beneath said conveyor member and including means automatically controlling the intermittent operation thereof, which means is in turn controlled in its operation by the weight of eggs supplied to said stations by said last named devices, and a further con tinuously traveling conveyor member adjacent said stations in general parallelism with said first named member and in vertically spaced relation thereto, said further conveyor member serving to transport materials away from said stations.

13. Apparatus of the type described, comprising the combination with a continuously operating, horizontally traveling conveyor member having a plurality of work stations arranged along a side of said conveyor member, of a plurality of intermittently operable article supply devices spaced along said conveyor member and operating transversely thereof to deliver articles to a delivery point adjacent said stations for convenientaccess of operators therein, and means automatically governing the intermittent operation of said devices, said means including means controlled in its operation by the presence or absence at said delivery point of articles to be supplied by said devices.

14. Apparatus of the type described, comprising the combination with a continuously operating, horizontally traveling conveyor member having a plurality of work stations arranged in immediate succession along a side of said conveyor member, of a plurality of intermittently operable article supply devices, one for each station, spaced along said conveyor member and operating transversely thereof to deliver articles to said stations for convenient access of operators therein, said last named devices passing beneath said conveyor member, and means automatically governing the intermittent operation of said devices, said means including means controlled in its operation by the presence or absence at said delivery point of articles to be supplied by said devices.

JOHN W. COX.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS FOREIGN PATENTS Country Date Great Britain Dec. 4, 1930 Number Number Certificate of Correction Patent No. 2,563,583 August 7, 1951 JOHN W. COX

It is hereby certified that error appears in the printed specification of the above numbered patent requlring correction as follows:

Column 5, line 6, after opening insert being; line 25, for As read At; column 8, line 23, after machine and before the comma insert 16' column 12, line 73, strike out conveyors;

and that the said Letters Patent should be read as corrected above, so that the same may conform to the record of the case in the Patent Oflice.

Signed and sealed this 18th day of December, A. D. 1951.

[SEAL] THOMAS F. MURPHY,

Assistant Commissioner of Patents. 

